Electroheat ECO-V Inverter Pool Heat Pump

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ELECTROHEAT ECO-V Inverter Pool Heat Pump

Compared to gas and electric heaters, Electroheat ECO-V inverter pool heat pumps use a fraction of the energy to generate the same amount of heat and unlike solar heating; there is no reliance on the sun as the latent heat in the air is used.

COST EFFECTIVE HEATING

A swimming pool is a major financial investment. Getting the most out of your pool, means keeping the pool at a swimmable temperature for the maximum number of hours each day and maximum number of days each year. A heat pump can economically keep your pool warm.

Heat pumps only require energy to operate a compressor and a fan motor, using low amperage in the process. For every 1kW of electricity consumed, Waterco ECO - V inverter heat pumps can produce up to 7kW of heat. Save up to 80% over propane gas, 50% over natural gas and 500% over electric heaters.

Compared to gas and electric heaters, Electroheat ECO-V inverter pool heat pumps use a fraction of the energy to generate the same amount of heat and unlike solar heating; there is no reliance on the sun as the latent heat in the air is used.

Inverter technology uses a variable speed compressor motor similar to a car engine.

It slows down and speeds up as needed to hold a selected set temperature

The desired set temperature will be reached more quickly and maintained more efficiently.

Inverter technology provides a more precise water temperature without the fluctuations and power.

Wastage of fixed speed systems.

Inverter technology is significantly more energy efficient with energy savings of between 15 - 30%.

Over fixed speed systems.

The speed control of the compressor and fan motor also means quieter operation.

Automatic Evaporator De-icing

Electroheat ECO-V inverter pool heat pumps feature automatic de-icing for situations where frost or ice may develop on the evaporator as part of normal operation. Common in cooler climates or winter months, when a build-up of ice is detected the heat pump shifts temporarily into cooling mode to reverse the flow of refrigerant through the evaporator coils. Hot refrigerant moves through the outside coils, melting ice and defrosting the system. When the defrost cycle is complete, the unit shifts back to heating mode.